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Kindling: A model for epilepsy and memory

1986; Wiley; Volume: 74; Issue: S109 Linguagem: Dinamarquês

10.1111/j.1600-0404.1986.tb04868.x

1600-0404

J Majkowski,

Amino Acid Enzymes and Metabolism

Acta Neurologica ScandinavicaVolume 74, Issue S109 p. 97-108 Kindling: A model for epilepsy and memory Jerzy Majkowski, Corresponding Author Jerzy Majkowski New York State Institute for Basic Research in Developmental Disabilities, New York, USAAddress: Jerzy Majkowski New York State Institute for Basic Research in Developmental Disabilities 1050 Forest Hill Road Staten Island New York 10314 USASearch for more papers by this author Jerzy Majkowski, Corresponding Author Jerzy Majkowski New York State Institute for Basic Research in Developmental Disabilities, New York, USAAddress: Jerzy Majkowski New York State Institute for Basic Research in Developmental Disabilities 1050 Forest Hill Road Staten Island New York 10314 USASearch for more papers by this author First published: October 1986 https://doi.org/10.1111/j.1600-0404.1986.tb04868.xCitations: 18AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL References 1 Wada JA, Sato M., Corcoran ME. Persistent seizure susceptibility and recurrent spontaneous seizures in kindled cats. Epilepsia 1974; 15: 465– 78. 2 Blackwood D. Amygdaloid kindling in rats: neurochemical and pharmacological studies. In: FC Rose, PO Behan, eds. Animal models of neurological diseases. Tunbridge Wells: Pitman Medical Ltd. 1980: 191– 201. 3 Lidsky A., Majkowski J., Budek M. Hippocampal kindling produces long-term alterations in visual evoked potential morphology. Electroencephalogr Clin Neurophysiol (abstract) 1984; 57: 1. 4 Bliss TVP, Lomo T. Long-lasting potentiation of synaptic transmission in the dentate area of the anaesthetized rabbit following stimulation of the perforant path. J Physiol 1973; 232: 331– 56. 5 Bliss TVP. Synaptic plasticity in the hippocampus. Trends Neurosci 1979; 2: 42– 5. 6 Peterson SL, Albertson TE, Stark LG. Intertrial intervals and kindled seizures. Exp Neurol 1981; 71: 144– 53. 7 Hutt SJ, Lee D. Some determinants of an amnesic phenomenon in a light-sensitive epileptic child. J Neurol Sci 1968; 6: 155– 64. 8 Hutt SJ, Gilbert S. Effects of evoked spike-wave discharges upon short term memory in patients with epilepsy. Cortex 1980; 16: 445– 57. 9 Freemon FR, Douglas EF, Penry JK. Environmental interaction and memory during petit mal (absence) seizures. Pediatrics 1973; 51: 911– 8. 10 Majkowski J. Brain electrical stimulation: kindling and memory aspects. Acta Neurol Scand 1981; 64(suppl 89): 101– 8. 11 Majkowski J., Sobieszek A. Effect of hippocampal kindling on motor avoidance conditioned reflex in cats. 12 Peterson SL, Albertson TE, Stark LG, Joy RM, Gordon LS. Cumulative afterdischarge as the principal factor in the acquisition of kindled seizures. Electroencephalogr Clin Neurophysiol 1981; 51: 192– 200. 13 Majkowski J. Effect of lesions in auditory system of the cat on learning to auditory stimuli. Rozpr Wydz Nauk Med 1964; 9: 59– 106. 14 Racine R., Zaide J. A further investigation into the mechanisms underlying the kindling phenomenon. In: KE Livingston, O. Hornykiewicz, eds. Limbic mechanisms. New York: Plenum Press, 1978: 457– 93. 15 Gilbert ME, Cain DP. A developmental study of kindling in the rat. Brain Res 1981; 254: 321– 8. 16 Goddard GV. The kindling model of epilepsy. Trends Neurosci 1983; 6: 275– 9. 17 Majkowski J., Bilinska-Nigot B., Sobieszek A. Development of EEG epileptic activity and seizures during kindling in sensorimotor cortex in cats. Epilepsia 1981; 22: 275– 84. 18 Baba H., Mori K., Ono K. Visual cortex kindling. Neurosci (Kobe) 1980; 6: 104– 5. 19 Fernandez-Guardiola A., Jurado JL, Calvo JM. Repetitive low-intensity electrical stimulation of cat's nonlimbic brain structures: dorsal raphe nucleus kindling. In: JA Wada, ed. Kindling 2. New York: Raven Press, 1981: 123– 35. 20 Wasterlain CG, Morin AM, Huberman H., Jonec V. Electrical kindling of the rat amygdala: Evidence against an obligatory role of muscarinic receptors. In: RC Duvoisin, ed. Transactions of the American Neurological Association 1980. New York: Springer Publ Co, 1981: 52– 5. 21 Kalichman MW. Neurochemical correlates of the kindling model of epilepsy. Neurosci Biobehav Rev 1982; 6: 165– 81. 22 Wasterlain CG, Masuoka D., Jonec V. Chemical kindling: A study of synaptic pharmacology. In: JA Wada, ed. Kindling 2. New York: Raven Press, 1981: 315– 29. 23 Baba H. Facilitatory effects of intermittent photic stimulation on visual cortical kindling. Epilepsia 1982; 23: 663– 70. 24 Goddard GV. The kindling model of limbic epilepsy. In: M. Girgis, LG Kiloh, eds. Limbic epilepsy and the dyscontrol syndrome. Elsevier/North-Holland Biomedical Press, 1980: 107– 16. 25 Adamec R. Behavioral and epileptic determinants of predatory attack behavior in the cat. Can J Neurol Sci 1975; 2: 457– 66. 26 Racine RJ. Modification of seizure activity by electrical stimulation. II. Motor seizure. Electroencephalogr Clin Neurophysiol 1972; 32: 281– 94. 27 Racine RJ, Gartner JG, Burnham WM. Epileptiform activity and neural plasticity in limbic structures. Brain Res 1972; 47: 262– 8. 28 Kwast O., Majkowski J. Changes in the somatosensory evoked potentials (SSEP) in kindled cats. Analogon of learning? Wiss Zeitschr Ernst-Moritz-Arndt-Universitat Greiswald 1979; 28: 133– 6. 29 Tsuru N., Ninomiya H., Fukuoka K., Nakahara D. The effect on excitability curve of the auditory cortex and auditory evoked responses of the medial geniculate nuclei following amygdaloid kindling in cats. Jap J EEG EMG 1981; 9: 270– 7. 30 Majkowski J., Kwast O. Changes in somatosensory evoked potentials during kindling: analogy to learning modifications. Epilepsia 1981; 22: 267– 74. 31 Tsuru N., Shimada Y. Changes in subcortical visual and auditory evoked potentials following amygdaloid kindling in cats. Epilepsia 1984; 25: 288– 91. 32 John ER, Bartlett F., Shimokochi M., Kleinman D. Neural readout from memory. J Neurophysiol 1973; 36: 893– 924. 33 Majkowski J., Sobieszek A. Evolution of average evoked potentials in cats during conditioning before and after tegmental lesions. Physiol Behav 1975; 14: 123– 31. 34 Majkowski J., Lidsky A., Budek M. Kindling as a model for neuronal plasticity. I. Epileptic after discharges (AD). Electroencephalogr Clin Neuro-physiol 1985; 61: 555. 35 Lidsky A., Majkowski J., Budek M. Kindling as a model for neuronal platicity. II. Sensory cortical evoked potentials (EP). Electroencephalogr Clin Neurophysiol 1985; 61: 5180. 36 Campbell KA, Milgram NW, Christoff JK. Plasticity in the reinforcing consequences of hippocampal stimulation. Brain Res 1978; 159: 458– 62. 37 Herberg LJ, Blundell JE. Epileptiform seizures and the rat's choice of stimulus duration in electrical self-stimulation. J Comp Physiol Psychol 1969; 67: 442– 7. 38 Milgram NW, Smith HL, Chong SM. Rapid development of motor seizures in rats barpressing for electrical stimulation of the preoptic area. Physiol Psychol 1978; 6: 57– 60. 39 Reid LD, Gibson WE, Gledhill SM, Porter PB. Anticonvulsant drugs and self-stimulating behavior. J Comp Physiol Psychol 1964; 57: 353– 6. 40 Douglas RM, Goddard GV. Long-term potentiation of the perforant path-granule cell synapse in the rat hippocampus. Brain Res 1975; 86: 205– 15. 41 Tuff LP, Racine R., Mishra R. Longlasting alterations in inhibitory processes in kindled rats. Abstract, Society for Neuroscience 11th Annual Meeting Los Angeles, California 1981: 584. 42 Lieblich I., Amari S. An extended first approximation model for the amygdaloid kindling phenomenon. Biol Cybern 1978; 28: 129– 35. 43 Barnes CA. Memory deficits associated with senescence: a neurophysiological and behavioral study in the rat. J Comp Physiol Psychol 1979; 93: 74– 104. 44 Rutledge LT, Wright C., Duncan J. Morphological changes in pyramidal cells of mammalian neocortex associated with increased use. Exp Neurol 1974; 44: 209– 28. 45 van Harreveld A., Fifkova E. Swelling of dendritic spines in the fascia dentata after stimulation of the perforant fibers as a mechanism of post-tetanic potentation. Exp Neurol 1975; 49: 736– 49. 46 Vosu H., Wise RA. Cholinergic seizure kindling in the rat: comparison of caudate, amygdala and hippocampus. Behav Biol 1975; 13: 491– 5. 47 Snead OC III. Seizures induced by carbachol, morphine, and leucine-enkephalin: a comparison. Ann Neurol 1983; 13: 445– 51. 48 Racine R. Kindling: The first decade. Neurosurgery 1978; 3: 234– 52. 49 Le Gal La Salle G., Calvino B., Ben-Ari Y. Morphine enhances amygdaloid seizures and increases inter-ictal spike frequency in kindled rats. Neurosci Lett 1977; 6: 255– 60. 50 Post RM, Davenport S., Pert A., Squillace KM. Lack of effect of an opiate agonist and antagonist on the development of amygdala kindling in the rat. Commun Psychopharmacol 1979; 3: 185– 90. 51 McNamara JO, Peper AM, Patrone V. Repeated seizures induce long-term increase in hippocampal benzodrazepine receptors. Proc Natl Acad Sci USA 1980; 77: 3029– 32. 52 Engel J. Jr., Katzman R. Facilitation of amygdaloid kindling by lesions of the stria terminalis. Brain Res 1977; 122: 137– 42. 53 Ehlers CL, Clifton DK, Sawyer CH. Facilitation of amygdala kindling in the rat by transsecting ascending noradrenergic pathways. Brain Res 1980; 189: 274– 8. 54 Araki H., Aihara H., Watanabe S., Ohta H., Yamamoto T., Ueki S. The role of noradrenergic and serotonergic systems in the hippocampal kindling effect. Jpn J Pharmacol 1983; 33: 57– 64. 55 Kovacs DA, Zoll JG. Seizure inhibition by median raphe nucleus stimulation in rat. Brain Res 1974; 70: 165– 9. 56 Racine R., Coscina DV. Effects of midbrain raphe lesions or systemic p-chlorophenylalanine on the development of kindled seizures in rats. Brain Res Bull 1979; 4: 1– 7. 57 Phillips AS. General discussion. In: JA Wada, ed. Kindling. New York: Raven Press, 1976: 235. 58 Arnold PS, Racine RJ, Wise RA. Effects of atropine, reserpine, 6-hydroxydopamine, and handling on seizure development in the rat. Exp Neurol 1973; 40: 457– 70. 59 Corcoran ME, Fibiger HC, McCaughran JA, Wada JA Jr. Potentiation of amygdaloid kindling and metrazol-induced seizures by 6-hydroxydopamine in rats. Exp Neurol 1974; 45: 118– 33. 60 McIntyre DC. Amygdala kindling in rats: facilitation after local amygdala norepinephrine depletion with 6-hydroxydopamine. Exp Neurol 1980; 69: 395– 407. 61 Woodbury DM. Role of pharmacological factors in the evaluation of anticonvulsant drugs. Epilepsia 1969: 10: 121– 44. 62 Majkowski J. EEG studies of patients treated with ACTH. Neurol Neurochir Psych Pol 1955; 5: 150– 66. 63 Dunn A. Brain protein synthesis after electroshock. Brain Res 1971; 35: 254– 9. 64 Nakajima S. Amnesic effect of cycloheximide in the mouse mediated by adrenocortical hormones. J Comp Physiol Psychol 1975; 1: 378– 85. 65 Rose RP, Bridger WH. Hormonal influences on seizure kindling: the effects of post-stimulation ACTH or cortisone injections. Brain Res 1982; 231: 75– 84. 66 Gold PE, van Buskirk R. Effects of posttrial hormone injections on memory processes. Horm Behav 1976; 7: 509– 17. 67 Gold PE, van Buskirk R. Enhancement and impairment of memory processes with post-trial injections of adrenocorticotrophic hormone. Behav Biol 1976; 16: 387– 400. 68 Flood JF, Vidal D., Bennett EL, Orme AE, Vasquez S., Jarvik ME. Memory facilitating and antiamnesic effects of corticosteroids. Pharmacol Biochem Behav 1978; 8: 81– 7. 69 Hydén H. The learning brain during a life-cycle-some biochemical and psychological aspects. Acta Neurol Scand 1980; 62(suppl 80): 9– 27. 70 Lynch G., Baudry M. The biochemistry of memory: A new and specific hypothesis. Science 1984; 224: 1057– 63. 71 Duffy C., Teyler TJ, Shashoua VE. Long-term potentiation in the hippocampal slice: evidence for stimulated secretion of newly synthesized proteins. Science 1981; 212: 1148– 51. 72 Dunn A. Brain protein synthesis after electro-shock. Brain Res 1971; 35: 254– 9. 73 Cotman CW, Banker G., Zornetzer SF, McGaugh JL. Electroshock effects on brain protein synthesis: relation to brain seizures and retrograde amnesia. Science 1971; 173: 454– 6. 74 Squire LR, John SS, Davis HP. Inhibitors of protein synthesis and memory: dissociation of amnestic effects and effects on adrenal steroidogenesis. Brain Res 1976; 112: 200– 6. 75 Ogata N. Effects of cycloheximide on experimental epilepsy induced by daily amygdaloid stimulation in rabbits. Epilepsia 1977; 18: 101– 8. 76 Jonec V., Holm S., Masuoka D., Wasterlain CG. Anisomycin delays amygdaloid kindling in rats. Soc Neurosci (Abstr) 1977; 3: 141. 77 Jonec V., Wasterlain CG. Effect of inhibitors of protein synthesis on the development of kindled seizures in rats. Exp Neurol 1979; 66: 524– 32. 78 Cain DP, Corcoran ME, Staines WA. Effects of protein synthesis inhibition on kindling in the mouse. Exp Neurol 1980; 68: 409– 19. 79 Morrell F., Tsuru N., Hoeppner TJ, Morgan D., Harrison WH. Secondary epileptogenesis in frog forebrain: effect of inhibition of protein synthesis. In: JA Wada, ed. Kindling. New York: Raven Press, 1976: 41– 60. 80 Flexner LB, Serota RG, Goodman RH. Cycloheximide and acetoxycycloheximide: inhibition of tyrosine hydroxylase activity and amnesic effects. Proc Natl Acad Sci USA 1973; 70: 354– 6. 81 Zech R., Domagk GF. Puromycin and cycloheximide as inhibitors of human brain acetylcholinesterase. Brain Res 1975; 86: 339– 42. 82 Davis HP, Squire LR. Protein synthesis and memory: A review. Psychol Bull 1984; 96: 518– 59. 83 Barraco RA, Stettner LJ. Antibiotics and memory. Psychol Bull 1976; 83: 242– 302. 84 Forbes WB, Stern WC, Tracy CA, Resnick O., Morgane PJ. Effect of chronic protein malnutrition on experimentally induced seizures in the rat. Exp Neurol 1978; 62: 475– 81. 85 Ogura A., Orsingher OA. Effect of early malnutrition on hippocampal seizure threshold in rats. Behav Neural Biol 1980; 28: 105– 10. 86 Taber KH, Fuller GN, Stanley JC, DeFrance JF, Wiggins RD. The effect of postnatal undernourishment on epileptiform kindling of dorsal hippocampus. Experientia 1980; 36: 69– 70. 87 Blackwood DHR, Cull RE, Freeman CPL, Evans JI, Mawdsley C. A study of the incidence of epilepsy following ECT. J Neurol Neurosurg Psychiatry 1980; 43: 1098– 1102. 88 Post RM, Putnam FW, Contel NR. Electroconvulsive shock inhibits amygdala kindling. Abstr Soc Neurosci 1981; 7: 587. 89 Post RM, Rubinow DR, Ballanger JC. Conditioning, sensitization and kindling: Implications for the course of affective illness. Frontiers of Clinical Neuroscience 1983; 28: 432– 65. 90 Willmore LJ, Sypert GW, Munson JB. Recurrent seizures induced by cortical iron injection. A model of posttraumatic epilepsy. Ann Neurol 1978; 4: 329– 36. 91 Willmore LJ, Sypert GW, Munson JV, Hurd RW. Chronic focal epileptiform discharges induced by injection of iron into rat and cat cortex. Science 1978; 200: 1501– 3. 92 Wilimore LJ, Rubin JJ. Antiperoxidant pretreatment and iron-induced epileptiform discharges in the rat: EEG and histopathologic studies. Neurology (NY) 1981; 31: 63– 9. Citing Literature Volume74, IssueS109October 1986Pages 97-108 ReferencesRelatedInformation